CN109430153A - A kind of aeration device for pools and its oxygenation method of wind-power - Google Patents

Abstract

The invention discloses a kind of aeration device for pools of wind-power and its oxygenation methods.Existing aerator there is a problem of higher cost, need persistently to consume electric energy, service life it is lower.A kind of aeration device for pools of wind-power of the present invention, including floating ring, bogie, edge cam, sliding bar, rotating disk, main shaft, envelope air parcel, aeration blade and chase after aerofoil.Bogie includes rotating ring and support frame.Rotating ring and floating ring constitute revolute pair.Main shaft is supported on rotating ring.It is fixed on the support frame to chase after aerofoil.Rotating disk includes blade pilum and slide bar disk.N aeration blade is provided on blade pilum.The hollow setting of aeration blade.Multiple solarization air caps are offered on aeration blade.The working profile of edge cam is by underwater section, changeover portion and waterborne section.The n slide bar through slot circumferentially uniformly distributed along slide bar disk is offered on slide bar disk.The present invention is not necessarily to external electric power, the lasting oxygenation of pond waters can be realized by wind drive.

Description

A kind of aeration device for pools and its oxygenation method of wind-power

Technical field

The invention belongs to aerator technical fields, and in particular to a kind of aeration device for pools of wind-power and its oxygenation side Method.

Background technique

The height of dissolved oxygen amount will have tremendous influence to the growth of ornamental fish, ornamental plant in pond in pond.It is existing Aerator improve dissolved oxygen amount generally by continuing in water bottom to blast air, to the culture efficiency of breeding water body There is apparent facilitation.But existing aerator there are higher cost, need persistently to consume electric energy, service life it is lower The problem of.In addition, the air at the existing aerator injection bottom is since the contact area of water body is smaller, most of all float is overflow It dissipates, causes serious waste.It only needs to cultivate some fancy fishes in pond in city, not need so a large amount of molten Oxygen.Therefore design one kind without external energy, cost is relatively low, pond oxygen-dissolving apparatus with long service life is particularly significant.

Summary of the invention

The purpose of the present invention is to provide a kind of aeration device for pools of wind-power and its oxygenation methods.

A kind of aeration device for pools of wind-power of the present invention, including floating ring, bogie, edge cam, sliding bar, rotation Disk, main shaft seal air parcel, aeration blade and chase after aerofoil.The bogie includes rotating ring and support frame.The rotating ring Revolute pair is constituted with floating ring.The support frame is fixed with rotating ring.The main shaft is supported on rotating ring.Chase after aerofoil It fixes on the support frame.The rotating disk includes blade pilum and slide bar disk.The blade pilum is fixed with main shaft.Leaf The inner hollow of piece pilum is arranged.The slide bar disk and the open end of blade pilum is fixed.It is provided on blade pilum along leaf Circumferentially uniformly distributed the first connecting tube of n root of piece pilum, 4≤n≤18.The first connecting tube of n root is connected to the inner cavity of blade pilum. The envelope air parcel is fixed with the support frame in bogie, and is located in blade pilum.The outer diameter for sealing air parcel is equal to blade pilum Internal diameter.It seals on the lateral surface of air parcel and offers sluicing notch.

The hollow setting of the aeration blade.It is offered in one of peripheral side of aeration blade in rectangular more A solarization air cap.The inner end of aeration blade is provided with the second connecting tube.The inner cavity of second connecting tube is connected to the inner cavity of aeration blade. The aeration blade shares n.The second connecting tube and the first connecting tube of n root on n aeration blade respectively constitute revolute pair. Torsional spring is equipped in the first connecting tube of n root.One end of torsional spring is fixed with blade pilum, and the other end is solid with corresponding aeration blade It is fixed.

The edge cam is fixed on the support frame in bogie.The axis of edge cam and the axis weight of main shaft It closes.The working profile of edge cam is by underwater section, changeover portion and waterborne section.The underwater both ends of section lead to respectively with waterborne section of both ends Cross changeover portion connection.The n slide bar through slot circumferentially uniformly distributed along slide bar disk is offered on the slide bar disk.N slide bar through slot and n The first connecting tube of root is staggered θ degree angle along the circumferential direction of main shaft respectively, 5≤θ≤180/n-2.N on n root sliding bar and slide bar disk A slide bar through slot respectively constitutes sliding pair.One end of n root sliding bar is against on the working profile of edge cam.Other end difference Resist n aeration blade.

Further, in the state that the sliding bar is contacted with the underwater section of edge cam working profile, aeration blade Axial sides offer the peripheral side of solarization air cap perpendicular to main shaft axis, and on aeration blade towards the rotation of aeration blade Direction.In the state that waterborne section of sliding bar and edge cam working profile contacts, the axial sides and main shaft of aeration blade The normal plane of axis is in 30 ° of angles.

Further, two axial sides of the aeration blade are in roughness, and are coated with hydrophobic coating.

Further, the fan-shaped shape in the cross section of the aeration blade.Aeration blade overturn to axial sides perpendicular to In the state of main shaft axis, the intersection of two peripheral sides is overlapped with main shaft axis on aeration blade.

Further, in the circumferential direction of main shaft, the first connecting tube is to the direction of slide bar through slot and aeration blade without aeration Hole side is to there is the direction of solarization air cap side consistent.

Further, the edge cam and the same side that aerofoil is respectively positioned on rotating disk is chased after.The underwater section of edge cam Distance to rotating disk is greater than the waterborne section of distance for arriving rotating disk.

Further, the both ends of the sliding bar are provided with spin.

Further, the floating ring includes upper floating ring and lower floating ring.Upper floating ring and lower floating ring are coaxially fixed together. The opposite flank of upper floating ring and lower floating ring offers annular groove.The annular of upper floating ring Yu lower floating ring is arranged in the rotating ring Between slot.

Further, the axis of the main shaft and the axis of rotating ring intersect vertically, and parallel with the side for chasing after aerofoil.

The oxygenation method of the aeration device for pools of the wind-power is specific as follows:

Step 1: floating ring is swum on the water surface in pond, and it is connect with rope with floating ring with pond bottom.

Step 2: chasing after aerofoil when blowing and driving bogie to rotate on floating ring under the action of the forces of the wind, rotating disk is separate Chase after the side face wind direction of aerofoil.

Step 3: aeration blade run-off the straight under the action of waterborne section of edge cam more than water surface；Below the water surface Aeration blade be arranged successively alignment under the action of edge cam underwater section；Wind power propelling aeration blade persistently rotates, and exposes The inner cavity of gas blade continues for air to be carried under water；Air in aeration blade in solarization air cap in the form of bubble from being discharged It is floating；Rough peripheral side continues the water body in pond being carried to the water surface or more with water droplet on aeration blade, so that air In oxygen incorporate water droplet.

The invention has the advantages that:

1, the present invention is not necessarily to external electric power, the lasting oxygenation of pond waters can be realized, eliminate and connect by wind drive Line cost and lasting power consumption cost.

2, air can either be brought into underwater progress dissolved oxygen by the present invention, and can be taken water droplet to and be carried out dissolved oxygen in air, Oxygenation efficiency with higher.

3, the present invention is by hydrophobic coating and rough shape, so that can be attached in the axial sides of aeration blade A large amount of water droplets.And water droplet has great specific surface area as chondritic, can quickly dissolve in oxygen.

4, it being provided in the present invention and chases after aerofoil, the impeller for enabling to aeration blade to be formed can be continued towards wind direction, with Improve the utilization rate of wind energy.

Detailed description of the invention

Fig. 1 is overall structure diagram of the invention；

Fig. 2 is the schematic top plan view for removing floating ring of the invention；

Fig. 3 is the schematic perspective view of bogie in the present invention；

Fig. 4 is the schematic perspective view of rotating disk in the present invention；

Fig. 5 is the front schematic view of rotating disk in the present invention；

Fig. 6 is the schematic perspective view of aeration blade in the present invention；

Fig. 7 is the schematic perspective view of edge cam in the present invention；

Fig. 8 is rotating disk, the assembling schematic diagram of edge cam, sliding bar, aeration blade in the present invention.

Specific embodiment

Below in conjunction with attached drawing, the invention will be further described.

As shown in Figure 1,2 and 3, a kind of aeration device for pools of wind-power, floating ring 1, edge cam 3, are slided bogie 2 Lever 4, main shaft 6, seals air parcel 7, aeration blade 8 and chases after aerofoil 9 at rotating disk 5.Floating ring 1 includes upper floating ring and lower floating ring.On The material of floating ring and lower floating ring is plastics, and is coaxially fixed together.The opposite flank of upper floating ring and lower floating ring offers Annular groove.

As shown in Figure 1,2 and 3, bogie 2 includes rotating ring 2-1 and support frame 2-2.Rotating ring 2-1 is arranged in upper floating ring Between the annular groove of lower floating ring, revolute pair is constituted with upper floating ring and lower floating ring.The both ends of support frame 2-2 with rotating ring 2-1 Medial surface fix.Horizontally disposed main shaft 6 is supported on the center position of rotating ring 2-1.The axis and rotating ring of main shaft 6 The axis of 2-1 intersects vertically.Two pieces chase after and are fixed on support frame 2-2 in 9 pairs of aerofoil.Two pieces of sides for chasing after aerofoil 9 and main shaft 6 Axis it is parallel.Two pieces chase after aerofoil 9 and bogie 2 can be driven under the action of the forces of the wind to rotate on floating ring 1, make winner The axis moment of shaft 6 is parallel to the horizontal component of wind direction.

As shown in Fig. 1,2,4 and 5, rotating disk 5 includes blade pilum 5-1 and slide bar disk 5-2.Blade pilum 5-1 and master turn The middle part of axis 6 is fixed.The inner hollow of blade pilum 5-1 is arranged, and one end open.Middle part offers the slide bar disk 5-2 of through-hole It is fixed with the open end of blade pilum 5-1.The circumferential direction being provided on the lateral surface of blade pilum 5-1 along blade pilum 5-1 is evenly distributed with The first connecting tube of n root 5-3, n=12.The inner cavity of the first connecting tube of n root 5-3 is connected to the inner cavity of blade pilum 5-1.

As shown in Fig. 1,4,6 and 8, the hollow setting of aeration blade 8, and the fan-shaped shape in cross section.Two week of aeration blade 8 It is mutually in 28 ° to side (peripheral side is the side circumferential perpendicular to aeration blade 8, and width is the thickness of aeration blade 8) (intersection of two peripheral sides is overlapped with the center of circle line of aeration blade 8, and center of circle line, that is, aeration blade 8 of aeration blade 8 is transversal at angle The line in the fan-shaped center of circle in face).(axial sides are the side axial perpendicular to aeration blade 8 to two axial sides of aeration blade 8 Face, fan-shaped shape) it is in roughness, and it is coated with hydrophobic coating.Therefore, when aeration blade 8 is turned to water from underwater When upper, rough axial sides will carry a large amount of water droplet and contact with air on aeration blade 8, since water droplet and air connect The surface area of touching is big, thus can quick dissolved oxygen, when this part, water droplet reenters underwater, can effectively increase in pond The dissolved oxygen amount of water body.It is offered in one of peripheral side of aeration blade 8 in rectangular multiple solarization air cap 8-2.Aeration The inner end of blade 8 is provided with the second connecting tube 8-1.The inner cavity of second connecting tube 8-1 is connected to the inner cavity of aeration blade 8.

Aeration blade 8 shares n.The second connecting tube 8-1 on n aeration blade 8 is nested with the n in rotating disk 5 respectively On the first connecting tube of root 5-3, and common axis is respectively constituted perpendicular to the rotation of 6 axis of main shaft with the first connecting tube of n root 5-3 It is secondary.Torsional spring is equipped on the first connecting tube of n root 5-3.One end of torsional spring is fixed with blade pilum 5-1, the other end with it is corresponding Aeration blade 8 is fixed, so that aeration blade 8 is by twisting resistance.The overturning of aeration blade 8 is to axial sides perpendicular to 6 axis of main shaft In the state of line, the intersection of two peripheral sides is overlapped with main shaft axis on aeration blade 8.

As shown in Fig. 1,2,7 and 8, edge cam 3 is fixed on the support frame 2-2 in bogie 2.It edge cam 3 and chases after Aerofoil 9 is respectively positioned on the same side of rotating disk 5.The axis of edge cam 3 is overlapped with the axis of main shaft 6.The work of edge cam 3 Profile is located at edge cam 3 towards the side of rotating disk 5.The working profile of edge cam 3 by underwater section 3-1, changeover portion 3-2 and Waterborne section of 3-3.The both ends of underwater section 3-1 pass through changeover portion 3-2 with the both ends of waterborne section of 3-3 respectively and connect.Two changeover portion 3-2 Intersect with by the horizontal plane of main shaft axis.Underwater section 3-1 and waterborne section of 3-3 is plane.Underwater section 3-1 is to rotating disk Distance be greater than waterborne section of 3-3 to rotating disk distance.

As shown in Fig. 4,5,7 and 8, the n slide bar through slot 5- circumferentially uniformly distributed along slide bar disk 5-2 is offered on slide bar disk 5-2 4.N slide bar through slot 5-4 and the first connecting tube of n root 5-3 is staggered 8 ° of angles along the circumferential direction of main shaft 6 respectively.N root sliding bar 4 and cunning N slide bar through slot 5-4 on bar disk 5-2 respectively constitutes the sliding pair slided along 6 axis direction of main shaft.N root sliding bar 4 Both ends are provided with spin.Spin and sliding bar 4 constitute spherical pair, and then avoid sliding friction.One end of n root sliding bar 4 is equal It is against on the working profile of edge cam 3.The other end is respectively held against n aeration blade 8.The torsion that torsional spring generates aeration blade 8 Square and the torque generated to aeration blade 8 of sliding bar 4 are equal, contrary.When rotating disk 5 rotates, so that a sliding When bar 4 is moved to waterborne section of 3-3 of edge cam 3 from the subsea end of edge cam 3, which will push corresponding aeration Blade 8 is rotated around the first connecting tube 5-3.In the circumferential direction of main shaft 6, the direction of the first connecting tube 5-3 to slide bar through slot 5-4 with Aeration blade 8 is without solarization air cap side to there is the direction of solarization air cap side consistent.

In the state that sliding bar 4 is contacted with the underwater section 3-1 of 3 working profile of edge cam, the axial sides of aeration blade 8 The peripheral side of solarization air cap 8-2 is offered perpendicular to 6 axis of main shaft, and on aeration blade 8 towards the rotation side of aeration blade 8 To.In the state that sliding bar 4 is contacted with waterborne section of 3-3 of 3 working profile of edge cam, aeration blade 8 is located at the water surface or more, exposes The axial sides of gas blade 8 and the normal plane of 6 axis of main shaft are in 30 ° of angles.So that being located at each aeration leaf of the water surface or more Piece 8 forms fan-shaped, in each aeration blade 8 of fan-shaped under the driving of wind-force, main shaft 6 is driven to rotate；So that position It is formed in the water surface each aeration blade 8 below discoid, and then reduces the resistance that water body overturns aeration blade 8 as far as possible, It allows the invention to be driven under fainter wind-force.Aeration blade 8 is from waterborne into underwater moment, aeration All solarization air cap 8-2 synchronization on blade 8 is contacted with the water surface, therefore the air in aeration blade 8 will not leave before entering water body The inner cavity of aeration blade 8.After aeration blade 8 enters water body, due to offering the peripheral side run-off the straight of solarization air cap 8-2.It exposes Air in gas blade 8 is discharged from aeration blade 8 in the form of minute bubbles, and oxygen is during emerging in minute bubbles Part is dissolved in water body, and the dissolved oxygen amount of water body is increased.

It as shown in figure 3, the envelope air parcel 7 and support frame 2-2 in bogie 2 is fixed, and is in annulus column.Seal the outer of air parcel 7 Diameter is equal to the internal diameter of blade pilum 5-1.It seals on the lateral surface of air parcel 7 and offers sluicing notch.Sluicing notch is located at envelope air parcel 7 Top is close to the side that blade is discharged.When aeration blade 8 under the action of the forces of the wind from it is waterborne be turned to underwater when, seal 7 energy of air parcel Enough air of the aeration blade 8 when entering water in inner cavity is stopped to be discharged at the first connecting tube 5-3, enables more air Into underwater, raising aeration efficiency.When aeration blade 8 is under the action of the forces of the wind from when being turned to waterborne under water, in aeration blade 8 Water energy it is enough quickly through envelope 7 sluicing notch of air parcel discharge, to reduce requirement of the rotation to wind-force, and be the interior of aeration blade 8 Chamber quickly supplements new air.

The oxygenation method of the aeration device for pools of the wind-power is specific as follows:

Step 1: floating ring 1 is swum on the water surface in pond, and it is connect with floating ring 1 with pond bottom with rope.

Step 2: two pieces chase after aerofoil 9 and drive bogie 2 to rotate on floating ring 1 under the action of the forces of the wind when blowing, rotation Turntable 5 is far from the side face wind direction (direction that wind comes) for chasing after aerofoil 9.

Step 3: the aeration blade 8 more than water surface tilts 30 ° of angles under the action of 3 waterborne sections of 3-3 of edge cam to meet It gives a dinner for a visitor from afar power；Water surface aeration blade 8 below is arranged successively alignment under the action of 3 underwater sections of 3-1 of edge cam；Wind power propelling Aeration blade 8 persistently rotates, and the inner cavity of aeration blade 8 continues for air to be carried under water；Air in aeration blade 8 is from aeration It is discharged and is floated in the form of minute bubbles in the 8-2 of hole, increase the dissolved oxygen amount of pond waters；Rough circumferential direction on aeration blade 8 Side continues the water body in pond being carried to the water surface or more with small water droplet, so that the oxygen in air incorporates small water droplet, increases pond The dissolved oxygen amount of pool water body.

Claims (10)

1. a kind of aeration device for pools of wind-power, including floating ring, main shaft and aeration blade；It is characterized by also including Bogie, sliding bar, rotating disk, seals air parcel and chases after aerofoil edge cam；The bogie includes rotating ring and support frame； The rotating ring and floating ring constitutes revolute pair；The support frame is fixed with rotating ring；The main shaft is supported on rotation In change；It is fixed on the support frame to chase after aerofoil；The rotating disk includes blade pilum and slide bar disk；The blade pilum with Main shaft is fixed；The inner hollow of blade pilum is arranged；The slide bar disk and the open end of blade pilum is fixed；Blade pilum On be provided with circumferentially uniformly distributed the first connecting tube of n root along blade pilum, 4≤n≤18；The first connecting tube of n root with blade base The inner cavity of column is connected to；The envelope air parcel is fixed with the support frame in bogie, and is located in blade pilum；Seal the outer diameter of air parcel Equal to the internal diameter of blade pilum；It seals on the lateral surface of air parcel and offers sluicing notch；

The hollow setting of the aeration blade；Multiple solarization air caps are offered in one of peripheral side of aeration blade；Aeration The inner end of blade is provided with the second connecting tube；The inner cavity of second connecting tube is connected to the inner cavity of aeration blade；The aeration leaf Piece shares n；The second connecting tube and the first connecting tube of n root on n aeration blade respectively constitute revolute pair；N root first connects Guan Shangjun is equipped with torsional spring；One end of torsional spring is fixed with blade pilum, and the other end is fixed with corresponding aeration blade；

The edge cam is fixed on the support frame in bogie；The axis of edge cam is overlapped with the axis of main shaft； The working profile of edge cam is by underwater section, changeover portion and waterborne section；The underwater both ends of section pass through respectively with waterborne section of both ends Changeover portion connection；The n slide bar through slot circumferentially uniformly distributed along slide bar disk is offered on the slide bar disk；N slide bar through slot and n root First connecting tube is staggered θ degree angle along the circumferential direction of main shaft respectively, 5≤θ≤180/n-2；N on n root sliding bar and slide bar disk Slide bar through slot respectively constitutes sliding pair；One end of n root sliding bar is against on the working profile of edge cam；The other end supports respectively Firmly n aeration blade.

2. a kind of aeration device for pools of wind-power according to claim 1, it is characterised in that: the sliding bar and end face In the state of the underwater section contact of cam contour, the axial sides of aeration blade are aerated leaf perpendicular to main shaft axis On piece offers the peripheral side of solarization air cap towards the rotation direction of aeration blade；The water of sliding bar and edge cam working profile In the state of upper section contact, the axial sides of aeration blade and the normal plane of main shaft axis are in 30 ° of angles.

3. a kind of aeration device for pools of wind-power according to claim 1, it is characterised in that: the two of the aeration blade A axial sides are in roughness, and are coated with hydrophobic coating.

4. a kind of aeration device for pools of wind-power according to claim 1, it is characterised in that: the aeration blade The fan-shaped shape in cross section；In the state that aeration blade is overturn to axial sides perpendicular to main shaft axis, two on aeration blade The intersection of peripheral side is overlapped with main shaft axis.

5. a kind of aeration device for pools of wind-power according to claim 1, it is characterised in that: in the circumferential direction of main shaft On, the direction of the first connecting tube to slide bar through slot and aeration blade are without solarization air cap side to there is the direction of solarization air cap side consistent.

6. a kind of aeration device for pools of wind-power according to claim 1, it is characterised in that: the edge cam and Chase after the same side that aerofoil is respectively positioned on rotating disk；The distance of the underwater section of edge cam to rotating disk is greater than waterborne section and arrives rotating disk Distance.

7. a kind of aeration device for pools of wind-power according to claim 1, it is characterised in that: the both ends of the sliding bar It is provided with spin.

8. a kind of aeration device for pools of wind-power according to claim 1, it is characterised in that: the floating ring includes Upper floating ring and lower floating ring；Upper floating ring and lower floating ring are coaxially fixed together；The opposite flank of upper floating ring and lower floating ring offers Annular groove；The rotating ring is arranged between upper floating ring and the annular groove of lower floating ring.

9. a kind of aeration device for pools of wind-power according to claim 1, it is characterised in that: the axis of the main shaft It intersects vertically with the axis of rotating ring, and parallel with the side for chasing after aerofoil.

10. the oxygenation method of the aeration device for pools of wind-power as described in claim 1, it is characterised in that:

Step 1: floating ring is swum on the water surface in pond, and it is connect with rope with floating ring with pond bottom；

Step 2: chasing after aerofoil when blowing and driving bogie to rotate on floating ring under the action of the forces of the wind, rotating disk is separate to chase after wind The side face wind direction of plate；

Step 3: aeration blade run-off the straight under the action of waterborne section of edge cam more than water surface；Water surface exposure below Gas blade is arranged successively alignment under the action of edge cam underwater section；Wind power propelling aeration blade persistently rotates, and is aerated leaf The inner cavity of piece continues for air to be carried under water；Air in aeration blade is discharged in the form of bubble from solarization air cap to float； Rough peripheral side continues the water body in pond being carried to the water surface or more with water droplet on aeration blade, so that in air Oxygen incorporates water droplet.